contract speed

简明释义

约定速度

英英释义

例句

1.By optimizing workflows, we can significantly increase our contract speed 合同速度 and reduce lead times.

通过优化工作流程，我们可以显著提高我们的contract speed 合同速度，并减少交付时间。

2.The new software features are designed to enhance contract speed 合同速度 for all users.

新软件功能旨在提高所有用户的contract speed 合同速度。

3.The team worked hard to improve the contract speed 合同速度 of the project, ensuring timely delivery.

团队努力提高项目的contract speed 合同速度，确保按时交付。

4.Clients appreciate a higher contract speed 合同速度, which helps them achieve their goals faster.

客户欣赏更高的contract speed 合同速度，这帮助他们更快地实现目标。

5.To stay competitive, the firm must focus on improving its contract speed 合同速度 in negotiations.

为了保持竞争力，公司必须专注于改善其谈判中的contract speed 合同速度。

作文

In the realm of physics and engineering, the term contract speed refers to the rate at which an object or material decreases in size or volume under specific conditions. This concept is crucial in various applications, including the design of materials that must withstand extreme temperatures or pressures. Understanding contract speed allows engineers to predict how materials will behave when subjected to different environmental factors, ensuring safety and functionality in their designs.For instance, consider a scenario where a metal component is exposed to high temperatures during operation. As it heats up, the metal expands; however, upon cooling, it will experience contract speed, returning to its original size. Engineers must account for this phenomenon to avoid structural failures. If they underestimate the contract speed, the component may become too tight in its housing, leading to potential damage or malfunction.Moreover, contract speed is not only relevant in mechanical engineering but also plays a significant role in the field of materials science. Researchers study the contract speed of polymers and composites to develop new materials with desirable properties. For example, a polymer that contracts too quickly might become brittle and break under stress, while one that contracts slowly could maintain its integrity longer. By understanding the contract speed of these materials, scientists can tailor them for specific applications, enhancing their performance and longevity.The implications of contract speed extend beyond engineering and materials science into everyday life. For example, when cooking, we often observe that meat shrinks as it cooks due to moisture loss and protein denaturation. This phenomenon can be explained by contract speed, as the meat contracts quickly when exposed to heat. Chefs who understand this principle can adjust cooking times and methods to achieve the desired texture and flavor in their dishes.In the context of climate change, the concept of contract speed can also be applied to natural phenomena. For instance, glaciers are known to contract at varying speeds due to temperature changes and melting. Understanding the contract speed of glaciers is vital for predicting sea-level rise, which poses a significant threat to coastal communities worldwide. Scientists monitor these changes closely to inform policy decisions and conservation efforts.In conclusion, the term contract speed encompasses a range of applications across different fields, from engineering to environmental science. By grasping the significance of contract speed, professionals can make informed decisions that enhance safety, improve material performance, and contribute to a better understanding of our world. Whether in the design of machinery, the development of new materials, or even in culinary practices, contract speed remains a fundamental concept that underscores the interconnectedness of science and everyday life.

在物理和工程领域，术语contract speed指的是在特定条件下，物体或材料减少尺寸或体积的速率。这个概念在各种应用中至关重要，包括设计必须承受极端温度或压力的材料。理解contract speed使工程师能够预测材料在不同环境因素下的行为，从而确保其设计的安全性和功能性。例如，考虑一个场景，其中金属部件在操作过程中暴露于高温下。当它加热时，金属会膨胀；然而，在冷却时，它将经历contract speed，返回到其原始大小。工程师必须考虑这一现象，以避免结构故障。如果他们低估了contract speed，组件可能会在其外壳中变得过于紧密，从而导致潜在的损坏或故障。此外，contract speed不仅与机械工程相关，还在材料科学领域发挥着重要作用。研究人员研究聚合物和复合材料的contract speed，以开发具有理想特性的材料。例如，收缩过快的聚合物可能会变得脆弱并在应力下断裂，而收缩缓慢的聚合物则可以更长时间地保持其完整性。通过了解这些材料的contract speed，科学家可以针对特定应用定制它们，提高性能和耐用性。contract speed的影响不仅限于工程和材料科学，也延伸到日常生活中。例如，在烹饪时，我们常常观察到肉在烹饪过程中因水分流失和蛋白质变性而收缩。这一现象可以通过contract speed来解释，因为肉在加热时迅速收缩。了解这一原理的厨师可以调整烹饪时间和方法，以达到所需的质感和风味。在气候变化的背景下，contract speed的概念也可以应用于自然现象。例如，冰川因温度变化和融化而以不同的速度收缩。了解冰川的contract speed对于预测海平面上升至关重要，这对全球沿海社区构成了重大威胁。科学家密切监测这些变化，以为政策决策和保护工作提供信息。总之，术语contract speed涵盖了不同领域的一系列应用，从工程到环境科学。通过掌握contract speed的重要性，专业人士可以做出明智的决策，增强安全性，提高材料性能，并帮助更好地理解我们的世界。无论是在机械设计、材料开发还是烹饪实践中，contract speed仍然是一个基本概念，强调了科学与日常生活之间的相互联系。